The reservoir capillary pressure-saturation data of the Angsi Oil reservoir is shown graphicallyin Figure 1. Geophysical log interpretations and core analysis establish the OWC at 3230 ft.The following additional data are available:- Oil density= 45.7 lb/ftWater density= 66.3 lb/ftInterfacial tension = 50 dynes/cmCalculate:(a) Connate water saturation (Swc) %.(b) Depth to FWL, ft.(c) Thickness of the transition zone, ft.(d) Depth to reach 50% water saturation, ft. 1210Pcpsi0.1020.30.40.50.60.81.0SWto

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The reservoir capillary pressure-saturation data of the Angsi Oil reservoir is shown graphically in Figure 1. Geophysical log interpretations and core analysis establish the OWC at 3230 ft. The following additional data are available: - Oil density - Water density = 66.3 lb/ft - Interfacial tension = 50 dynes/cm = 45.7 lb/ft Calculate: (a) Connate water saturation (Swe) %. (b) Depth to FWL, ft. (c) Thickness of the transition zone, ft. (d) Depth to reach 50% water saturation, ft.

The reservoir capillary pressure-saturation data of the Angsi Oil reservoir is shown graphically in Figure 1. Geophysical log interpretations and core analysis establish the OWC at 3230 ft. The following additional data are available: - Oil density - Water density = 66.3 lb/ft - Interfacial tension = 50 dynes/cm = 45.7 lb/ft Calculate: (a) Connate water saturation (Swe) %. (b) Depth to FWL, ft. (c) Thickness of the transition zone, ft. (d) Depth to reach 50% water saturation, ft.

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter5: Analysis Of Convection Heat Transfer

Section: Chapter Questions

Problem 5.5P: Evaluate the dimensionless groups hcD/k,UD/, and cp/k for water, n-butyl alcohol, mercury, hydrogen,...

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